JP2010052240A - Method for manufacturing ballpoint pen - Google Patents
Method for manufacturing ballpoint pen Download PDFInfo
- Publication number
- JP2010052240A JP2010052240A JP2008218875A JP2008218875A JP2010052240A JP 2010052240 A JP2010052240 A JP 2010052240A JP 2008218875 A JP2008218875 A JP 2008218875A JP 2008218875 A JP2008218875 A JP 2008218875A JP 2010052240 A JP2010052240 A JP 2010052240A
- Authority
- JP
- Japan
- Prior art keywords
- ball
- coil spring
- elastic member
- ballpoint pen
- horn
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Pens And Brushes (AREA)
Abstract
Description
本発明は、筆記部材としてのボールを前方付勢する弾性部材を後退規制するボールペンの製造方法に関する。 The present invention relates to a method of manufacturing a ballpoint pen that restricts a backward movement of an elastic member that urges a ball as a writing member forward.
従来、ボールペンチップ内とインキタンクとを接続する部材の内壁に形成した突起を乗り越えてコイルスプリングを嵌合させたもの(特許文献1参照)が知られている。
特許文献1に開示されているような突起と弾性部材の大径部とを乗り越え係止させた物では、乗り越え時に、突起と弾性部材とが擦れ合うことになり、いずれかの部材又は双方が削れたり変形してしまうなどの損傷を受けることがあった。その結果、弾性部材に対する後退付勢力が弱まり、ボールの押圧力が一定にならず、量産上のばらつきをまねく危険があった。また、製品使用時の衝撃(ノックを戻す時の衝撃や、ボールペンを落とした際の衝撃)等に耐える事が出来ず、弾性部材が突起から外れ、ボールを前方付勢することが出来なくなってしまい、ペン先からのインキ洩れにつながる事があった。また、製造途中の衝撃(部品の運搬等の衝撃)によって弾性部材が突起から外れ、不良品となる事があった。
また、特に、ボールを前方付勢する弾性体として、金属製のコイルスプリングを用いている場合には、合成樹脂製の突起が簡単に傷ついてしまう。
In the thing which the protrusion and the large-diameter portion of the elastic member which are disclosed in Patent Document 1 get over and are locked, the protrusion and the elastic member rub against each other when getting over, and either or both of the members are scraped. Or damage such as deformation. As a result, the backward biasing force against the elastic member is weakened, the pressing force of the ball is not constant, and there is a risk of causing variations in mass production. In addition, it cannot withstand the impact of using the product (impact when knocking back, impact when dropping the ballpoint pen), etc., and the elastic member will come off the protrusion, making it impossible to urge the ball forward. As a result, ink leakage from the pen tip could occur. In addition, the elastic member may come off from the protrusion due to an impact during manufacture (impact during transportation of parts, etc.), resulting in a defective product.
In particular, when a metal coil spring is used as an elastic body for urging the ball forward, the synthetic resin protrusion is easily damaged.
本発明は、筆記部材としてのボールを前方付勢する弾性部材と、この弾性部材を包囲する熱可塑性合成樹脂製の筒状部材とを少なくとも有し、弾性部材によってボールを前方付勢した状態で前記筒状部材を熔融させることによって、この筒状部材の内孔に内方突部を形成し、この内方突部を弾性部材の後退規制部とするボールペンの製造方法を要旨とする。 The present invention has at least an elastic member that urges a ball as a writing member forward and a cylindrical member made of a thermoplastic synthetic resin that surrounds the elastic member, and the ball is urged forward by the elastic member. The gist of the ballpoint pen manufacturing method is that the tubular member is melted to form an inward protrusion in the inner hole of the tubular member, and the inward protrusion is used as a retraction restricting portion of the elastic member.
ボールを前方付勢した状態で樹脂を熔融させ突部を形成し弾性部材の後退規制部を作るため、弾性部材のボールに対する位置を管理しやすく、ねらいのボール押圧力を安定して得ることができると共に、熔融樹脂が弾性部材に沿って流れるので、弾性部材の固定も確実になるものである。 Since the resin is melted in the state where the ball is urged forward to form the protrusion and the retraction restricting portion of the elastic member is created, the position of the elastic member relative to the ball can be easily managed, and the desired ball pressing force can be stably obtained. In addition, since the molten resin flows along the elastic member, the elastic member can be securely fixed.
ボールペンは、筆記部材としてのボールを先端開口部より一部突出させて抱持するボールホルダーとインキタンクとを接続することによって得られる。ボールホルダーとインキタンクとの接続は、両者を直接に圧入させることもできるが、互いの内径、外径の違いを埋めるべく、継手部材を介在させることもできる。 The ballpoint pen is obtained by connecting a ball holder that holds a ball as a writing member partially protruding from the tip opening and an ink tank. The connection between the ball holder and the ink tank can be directly press-fitted with each other, but a joint member can be interposed in order to fill the difference between the inner diameter and the outer diameter.
筆記部材となるボールは、ボールホルダーの内孔内に配置されるが、ボールホルダーは、内孔に切削加工や、外側よりの圧延加工などによってボールの後退規制をなす内段部を形成すると共に、ボール設置後に開口部にかしめ加工を施すなどして縮径して、ボールを先端開口部より一部突出させた状態で回転自在に抱持する。
ボールを抱持させた後に、ボールを弾性的に前方付勢する弾性部材にてボール後端を直接又は他部材を介して押し、非使用時にはボールをボールホルダーの先端開口部の内縁に押し付けることによって、該部からのインキ漏れを抑制する。使用時に、ボールが紙面などの被筆記面に押し付けられることによって弾性部材が収縮してボールとボールホルダーの先端開口部の内縁との間にインキが流出できる隙間を形成して筆記に供するが、ボールを被筆記面より離すと弾性部材が弾性的に形状回復して再度ボールがボールホルダーの先端開口部の内縁に押し付けられ、インキが流出しない状態を形成する。弾性部材がボールに対して押圧力を付与するためには、弾性部材が後退規制されて設置される必要があり、ボールホルダー内孔あるいは、インキタンクとの接続部材の内孔に弾性部材の後退規制部となる内方突出部を形成し、その前側に弾性部材を設置した状態に組み立てることとなる。
The ball serving as a writing member is disposed in the inner hole of the ball holder, and the ball holder forms an inner step part that regulates the retraction of the ball in the inner hole by cutting or rolling from the outside. Then, after the ball is installed, the diameter of the opening is reduced by, for example, caulking, and the ball is rotatably held in a state in which the ball is partially protruded from the tip opening.
After holding the ball, press the rear end of the ball directly or through another member with an elastic member that elastically urges the ball forward, and press the ball against the inner edge of the tip opening of the ball holder when not in use Thus, ink leakage from the portion is suppressed. During use, the ball is pressed against a writing surface such as paper, and the elastic member contracts to form a gap through which ink can flow out between the ball and the inner edge of the tip opening of the ball holder. When the ball is separated from the writing surface, the elastic member elastically recovers and the ball is again pressed against the inner edge of the tip opening of the ball holder to form a state in which ink does not flow out. In order for the elastic member to apply a pressing force to the ball, the elastic member needs to be installed so as to be retracted, and the elastic member is retracted into the inner hole of the ball holder inner hole or the ink tank connecting member. An inward projecting portion serving as a restricting portion is formed, and the elastic member is installed on the front side thereof.
本発明では、筒状部材として、ボールホルダー、または、ボールホルダーとインキタンクとの接続部材に超音波を付与することによって、形状を変形できる程度に熔融させて変形し、弾性部材の後退規制部となる内方突出部を形成する。すなわち、ボールホルダーにボールを回転自在に抱持させた後に、ボールホルダーの後端開口部より弾性部材を挿入し、ボールホルダーの後端開口部に超音波振動を付与して熔融させつつ内側に押して内方突出部を形成するか、ボールホルダーとインキタンクとの接続部材との間に挟まれるように弾性部材を設置した後にボールホルダーとインキタンクとの接続部材の後端から超音波振動を付与して熔融させつつ内側に押して内方突出部を形成するか、又は、ボールホルダーと接続部材とを組み立てた後に、接続部材の後端開口部より弾性部材を挿入配置し、次いで接続部材の後端から超音波振動を付与して熔融させつつ内側に押して内方突出部を形成することで弾性部材の後退規制をなす。
このとき、十分な力でボールがボールホルダーの先端開口部内縁に周状当接しインキ漏れを抑制するために、弾性部材は縮められた状態でボール(又は別部材を介する場合はその別部材)と後退規制部となる内方突出部との間で狭持された状態とする必要がある。本発明では、弾性部材を押し縮めてボールに前方付勢力を付与した状態で内方突出部を形成する。
In the present invention, as a cylindrical member, by applying ultrasonic waves to the connection member between the ball holder or the ball holder and the ink tank, the cylindrical member is melted and deformed to such an extent that the shape can be deformed. An inward protruding portion is formed. That is, after holding the ball rotatably in the ball holder, an elastic member is inserted from the rear end opening of the ball holder, and ultrasonic vibration is applied to the rear end opening of the ball holder so as to melt it inside. Push to form an inward protruding part or install an elastic member so that it is sandwiched between the ball holder and the ink tank connecting member, and then apply ultrasonic vibration from the rear end of the ball holder and ink tank connecting member. After applying and melting, push inward to form the inward protruding portion, or after assembling the ball holder and the connecting member, insert an elastic member from the rear end opening of the connecting member, and then connect the connecting member By applying ultrasonic vibration from the rear end and melting it, it is pushed inward to form an inward protruding portion, thereby making the elastic member receding restricted.
At this time, the elastic member is in a contracted state so that the ball comes into contact with the inner edge of the tip opening of the ball holder with sufficient force to suppress ink leakage (or another member when another member is interposed). And the inward projecting portion serving as the retraction restricting portion must be held between them. In the present invention, the inward protruding portion is formed in a state where the elastic member is pressed and contracted to apply a forward biasing force to the ball.
内方突出部を形成するために樹脂を溶融させる方法としては、超音波振動によるものの他に、熱による熔融や溶剤による軟化などが考えられるが、他部材への影響や局部的な加工精度、取扱いの容易性より、超音波の付与が好適であるといえる。
また、樹脂を熔融させる超音波振動や熱などを付与する治具は、同時に弾性部材を圧縮するものであってもよいし、弾性部材を圧縮する部材は別に設けてもよい。
As a method of melting the resin in order to form the inward protruding portion, in addition to using ultrasonic vibration, melting by heat or softening by a solvent can be considered, but the influence on other members and local processing accuracy, From the ease of handling, it can be said that application of ultrasonic waves is preferable.
Moreover, the jig | tool which provides the ultrasonic vibration, heat, etc. which fuse resin may compress an elastic member simultaneously, and the member which compresses an elastic member may be provided separately.
弾性部材としては、金属製、合成樹脂製のコイルスプリングや棒状部材など、外力によって全長が縮小し、外力が解除されれば全長を復元するものであればよい。特に、ボールの後端に該当する部分は、ボールホルダーに、ボールの後退規制をなす内段部が形成された径の小さな孔部分となっているので、極めて細いもので押すことになり、繰り返し使用の耐久性などからステンレスなどの合金によるコイルスプリングが好ましいといえる。ただし、弾性部材とボールとの間に別部材を配置する場合にはこの限りではない。また、コイルスプリングの先端部に線を巻かない直線状部分を形成してボールを押す部分となすこともできる。
熔融樹脂によって内方突出部を形成することによって弾性部材の後退規制をなすと同時に、弾性材料の側壁に熔融樹脂が流れ込む凹みを形成し、弾性部材の固定を確実になすこともできる。コイルスプリングを使用する場合には、線間の隙間または凹みに熔融樹脂が流入することによって固定は確実になる。
しかしながら、コイルスプリングの線間の隙間から大量の樹脂が流入すると、肝心のインキが通る空間を埋めてしまうことにもなるので、熔融させる樹脂の量や、その流れ行き着く先の管理をなすべきである。例えば、付与する超音波を管理することによって熔融される樹脂の体積を最小限のものとする他に、弾性部材による樹脂の流動障壁を形成したりすることもできる。尚、コイルスプリングの後端に隣接する巻線が接触している部分(所謂「座巻き部」と称される部分)を配置して、コイルスプリングの内側にまで熔融樹脂が侵入することを抑制することもできる。
The elastic member may be a metal or synthetic resin coil spring or rod-shaped member that can be reduced in length by an external force and restored when the external force is released. In particular, the part corresponding to the rear end of the ball is a small-diameter hole part in which an inner step part is formed in the ball holder to regulate the backward movement of the ball. It can be said that a coil spring made of an alloy such as stainless steel is preferable because of durability of use. However, this is not the case when another member is disposed between the elastic member and the ball. Further, it is also possible to form a straight portion that does not wind a wire around the tip of the coil spring and to be a portion that pushes the ball.
By forming the inward protruding portion with the molten resin, it is possible to restrict the retraction of the elastic member, and at the same time, it is possible to form a recess into which the molten resin flows into the side wall of the elastic material, thereby securely fixing the elastic member. When a coil spring is used, fixing is ensured by the molten resin flowing into the gaps or dents between the wires.
However, if a large amount of resin flows from the gaps between the coil spring lines, it will also fill the space through which the essential ink passes, so you should manage the amount of resin to be melted and the destination of the flow. is there. For example, in addition to minimizing the volume of the melted resin by managing the applied ultrasonic waves, it is also possible to form a resin flow barrier by an elastic member. In addition, a portion where the winding adjacent to the rear end of the coil spring is in contact (the so-called “end winding portion”) is arranged to prevent the molten resin from entering the inside of the coil spring. You can also
以下、図面に基づき一例について説明する。
図1にて示したものは、本発明の製造方法を利用して作られたボールペンの一例である。即ち、単純な形態のものとして、インキ1及びインキの逆流を防止する高粘度流体であるフォロワー2を収容するインキタンク3、筆記部材としてのボール4を抱持するボールホルダー5、ボール4を前方付勢する弾性部材であるコイルスプリング6、インキタンク3とボールホルダー5とを接続する接続部材7とからなっている。図1にて示したボールペンをそのまま把持して筆記することも可能であるが、本図のものは、把持しやすい太さの外装体(図示せず)内に、交換可能に設置されて使用される、リフィルと称されるものを想定して示してある。このようなリフィルと称されるボールペンは、把持しやすい外装体に収容されると共に、外装体に繰り出し係止機構などを配することによって、ノック操作やスライド操作などの操作による繰り出し式のボールペンとすることもできる。
Hereinafter, an example will be described with reference to the drawings.
What was shown in FIG. 1 is an example of the ball-point pen produced using the manufacturing method of this invention. That is, as a simple configuration, the ink tank 3 that contains the ink 1 and the follower 2 that is a high-viscosity fluid that prevents backflow of the ink, the ball holder 5 that holds the ball 4 as a writing member, and the ball 4 forward The coil spring 6 is an elastic member to be urged, and the connection member 7 connects the ink tank 3 and the ball holder 5. The ballpoint pen shown in FIG. 1 can be gripped and written as it is, but the one shown in this figure is installed in an easily replaceable outer package (not shown). It is shown assuming what is called a refill. Such ballpoint pens called refills are housed in an exterior body that is easy to grip, and are provided with a delivery locking mechanism or the like on the exterior body, so that You can also
上述のようなボールペンの製造方法について説明する。
第一に、ボールを抱持するボールホルダーを切削や圧延加工などにて形成する。中実の棒部材を適宜長さに切断したものや、予め中孔の形成されたパイプ材を適宜長さに切断したものをブランク材とし、これに切削加工や圧延加工を施して外形状、中形状を整え、ボールを設置した後にボールホルダーの先端開口部にカシメ加工などの縮径加工を施して抜け止めし、ボールを回転自在に抱持する。
中実の棒部材によるボールホルダーとボールとからなるボールペンチップの製法は、例えば、特開平6−191190号公報に記載の方法によって得ることができ、パイプ材によるボールホルダーとボールとからなるボールペンチップの製法は、例えば、特開平9−123663号公報に記載の方法によって得ることができる。勿論、これらの方法以外の手段にて得られるものであってもよい。
ボールとボールホルダーとを組み合わせボールペンチップ8としたものに、コイルスプリング6、インキタンク3、接続部材7を組み付け、インキタンク3内にインキ1及びフォロワー2を充填してボールペンとする。
A method for manufacturing the above ballpoint pen will be described.
First, a ball holder for holding the ball is formed by cutting or rolling. A solid bar member cut to an appropriate length, or a pipe material that has been previously cut to an appropriate length into a blank material is used as a blank, and this is subjected to cutting and rolling to provide an outer shape, After adjusting the middle shape and setting the ball, the tip opening of the ball holder is subjected to diameter reduction processing such as caulking to prevent it from coming off, and the ball is rotatably held.
A method of manufacturing a ballpoint pen tip composed of a ball holder and a ball using a solid bar member can be obtained, for example, by a method described in JP-A-6-191190. This production method can be obtained, for example, by the method described in JP-A-9-123663. Of course, it may be obtained by means other than these methods.
A coil pen 6, an ink tank 3, and a connecting member 7 are assembled to a ball pen tip 8 that is a combination of a ball and a ball holder, and the ink tank 3 is filled with ink 1 and follower 2 to form a ballpoint pen.
以降に、本発明の特徴部分である、ボールホルダー内孔に、先端を挿入してボールを前方付勢する弾性部材(例ではコイルスプリング6)の固定方法についての具体例を説明する。 Hereinafter, a specific example of a fixing method of an elastic member (in the example, the coil spring 6) that urges the ball forward by inserting the tip into the ball holder inner hole, which is a characteristic part of the present invention, will be described.
ボールペンチップ8と、ボールペンチップ8とインキタンク3との接続部材7とを、接続部材7の前側開口部7aにボールホルダー5の後端が圧入されるように組み立て、ボールペンチップ8と接続部材7とが組み合わされた部材Aを得る。図2に示すように、この部材Aを、支持台9の内向9aにボール4が下側にボールホルダー5の後端が上側を向くように設置し、次いで、接続部材7の後端開口部7bよりコイルスプリング6を挿入する。コイルスプリング6は、先端側に線巻きをせずに直線状に形成した棒状部6aと、後端に隣り合った巻き線部分が接触する座巻き部6bとを有しており、棒状部6aの先端がボール4の後端に接触するように配置する。 The ball-point pen tip 8 and the connection member 7 between the ball-point pen tip 8 and the ink tank 3 are assembled so that the rear end of the ball holder 5 is press-fitted into the front opening 7 a of the connection member 7. To obtain a member A in which As shown in FIG. 2, the member A is installed in the inward direction 9 a of the support base 9 so that the ball 4 is on the lower side and the rear end of the ball holder 5 is on the upper side. The coil spring 6 is inserted from 7b. The coil spring 6 has a rod-shaped portion 6a formed in a straight line without winding on the front end side, and an end winding portion 6b with which a winding portion adjacent to the rear end contacts, and the rod-shaped portion 6a. It arrange | positions so that the front-end | tip of may contact the rear end of the ball | bowl 4.
図2のI部拡大図である図3に示すように、次いで、接続部材7の後端開口部7bより、コイルスプリング6を圧縮する押圧棒10を挿入し、下側に移動させて押圧棒10の先端をコイルスプリング6の後端に接触させ、さらに押圧棒10を下側に移動させる事で、コイルスプリング6を圧縮する。押圧棒10は、圧縮されたコイルスプリング6の弾撥力がボール4を前方付勢する状態で移動を止め、位置を維持する。 As shown in FIG. 3, which is an enlarged view of the I part of FIG. 2, a pressing rod 10 for compressing the coil spring 6 is then inserted from the rear end opening 7 b of the connecting member 7, and moved downward to press the pressing rod. The tip of 10 is brought into contact with the rear end of the coil spring 6 and the pressing rod 10 is moved downward to compress the coil spring 6. The pressing bar 10 stops moving and maintains its position in a state where the elastic force of the compressed coil spring 6 urges the ball 4 forward.
次に、図4に示すように、接続部材7の後端開口部7bより、超音波振動を付与するホーン11を挿入する。
ホーン11は、筒形状を有しており、前述の押圧棒10が内孔に配置され、押圧棒10とホーン11とは互いに前後動自在である。また、接続部材7は内孔にホーン11の外径よりも小径の部分を有しており、径の差分の段部7cが形成されている。ホーン11の挿入を進めると、ホーン11の先端面が接続部材7の内段部7cに当接する。この状態でホーン11に超音波を付与すると同時にホーン11を下方へと移動させる。超音波による振動エネルギーによって、接続部材7の段部7c近傍の樹脂材料が熔融され、ホーン11の下方への移動によって熔融樹脂を加圧し、熔融樹脂を接続部材7の内方に押し広げる(図5参照)。熔融樹脂が広がる先にコイルスプリング6の座巻き部6bがあるため、熔融樹脂が座巻き部6bより内側には流れず、熔融樹脂は座巻き部6bの側面に沿って線間の凹部6cに浸入する。
熔融樹脂が所望の位置に達した状態で超音波の付与を終了し、数秒おいて熔融樹脂を固化させた後にホーンと押圧棒を抜き、内方突出部7dによってコイルスプリング6が固定された状態を得る(図6参照)。
接続部材7の後端を前述のインキタンク3に圧入し、インキ1及びインキの逆流を防止する高粘度流体であるフォロワー2を充填した後、遠心力の付与にてインキ中もしくはフォロワー中に残留した気泡を抜き、図1に示したボールペンを得る。尚、インキ1とフォロワー2は、インキタンク3に予め充填した物を部材Aと接続するようなしてもよい。
Next, as shown in FIG. 4, a horn 11 for applying ultrasonic vibration is inserted from the rear end opening 7 b of the connection member 7.
The horn 11 has a cylindrical shape, the above-mentioned pressing rod 10 is disposed in the inner hole, and the pressing rod 10 and the horn 11 are movable back and forth with respect to each other. Further, the connecting member 7 has a portion having a smaller diameter than the outer diameter of the horn 11 in the inner hole, and a step portion 7c having a difference in diameter is formed. When the insertion of the horn 11 is advanced, the tip surface of the horn 11 comes into contact with the inner step portion 7 c of the connecting member 7. In this state, ultrasonic waves are applied to the horn 11 and simultaneously the horn 11 is moved downward. The resin material in the vicinity of the stepped portion 7c of the connecting member 7 is melted by the vibration energy generated by the ultrasonic waves, and the molten resin is pressurized by the downward movement of the horn 11 to spread the molten resin inward of the connecting member 7 (FIG. 5). Since the end portion 6b of the coil spring 6 is present before the molten resin spreads, the molten resin does not flow inward from the end winding portion 6b, and the molten resin flows into the recess 6c between the lines along the side surface of the end wound portion 6b. Infiltrate.
Application of ultrasonic waves in a state where the molten resin has reached a desired position, after the molten resin is solidified in a few seconds, the horn and the pressing rod are pulled out, and the coil spring 6 is fixed by the inward protruding portion 7d (See FIG. 6).
After the rear end of the connecting member 7 is press-fitted into the ink tank 3 described above, the ink 1 and the follower 2 which is a high-viscosity fluid that prevents backflow of the ink are filled, and then remains in the ink or the follower by applying centrifugal force. The removed bubble is removed to obtain the ballpoint pen shown in FIG. The ink 1 and the follower 2 may be connected to the member A by filling the ink tank 3 in advance.
図7〜図9に他の一例を示す。
上述の一例とは、コイルスプリング6の固定方法が異なるものであり、ボールペンチップ8と接続部材との組み立て、部材の支持台への設置、コイルスプリング6の配置、コイルスプリング6の後退規制を行う内方突部7dが成形された後のボールペン組み立て方法は前述した一例と同じである。尚、図7〜図9は、図2のI部拡大図に相当する図面として示してある。
Another example is shown in FIGS.
The method of fixing the coil spring 6 is different from the above-described example, and the assembly of the ballpoint pen tip 8 and the connection member, the installation of the member on the support base, the arrangement of the coil spring 6 and the backward movement restriction of the coil spring 6 are performed. The ball-point pen assembly method after the inward projection 7d is formed is the same as the above-described example. 7 to 9 are shown as drawings corresponding to the enlarged view of the portion I in FIG.
図7に示すように、本例におけるコイルスプリング6は、座巻き部6bに大径部6cを有するものとしてあり、また、接続部材7は、内壁にコイルスプリング6の座巻き部6bの外径よりも若干小径の周状凸部7eが形成されている。
図8に示すように、挿入したコイルスプリング6を押圧棒10にて押圧し、座巻き部6bの大径部6dが周状凸部7eを乗り越えさせる。周状凸部7eの位置は、ボール4と周状凸部7eとでコイルスプリング6を圧縮状に挟持するような位置としてある。
次に、図9に示すように、押圧棒10を抜脱した後、ホーン11を挿入して、接続部材7の段部7cを押し付けながら超音波振動を付与し、段部7c近傍の樹脂を熔融させ、コイルスプリング6とホーン11との間に熔融樹脂を侵入させ、樹脂を固化させてコイルスプリング6を固定する。本例においては、ホーン11の先端部に突出部11aを有する形状のものを採用したので、熔融樹脂はこの突出部11aを超えて中心方向に浸入せず、インキ通路となる内孔を確保する上で好ましいといえる。尚、コイルスプリング6の座巻き部6bの凹部6cに熔融樹脂が浸入して固定が確実となる点は上述の一例と同様である。
As shown in FIG. 7, the coil spring 6 in this example has a large-diameter portion 6c in the end winding portion 6b, and the connection member 7 has an outer diameter of the end winding portion 6b of the coil spring 6 on the inner wall. A circumferential convex portion 7e having a slightly smaller diameter is formed.
As shown in FIG. 8, the inserted coil spring 6 is pressed by the pressing rod 10, and the large-diameter portion 6d of the end winding portion 6b gets over the circumferential convex portion 7e. The position of the circumferential projection 7e is such that the coil spring 6 is compressed between the ball 4 and the circumferential projection 7e.
Next, as shown in FIG. 9, after removing the pressing rod 10, the horn 11 is inserted, ultrasonic vibration is applied while pressing the step 7c of the connecting member 7, and the resin near the step 7c is removed. The melted resin is inserted between the coil spring 6 and the horn 11, and the resin is solidified to fix the coil spring 6. In this example, since the thing which has the shape which has the protrusion part 11a at the front-end | tip part of the horn 11 was employ | adopted, molten resin does not penetrate | invade center direction beyond this protrusion part 11a, and secures the inner hole used as an ink channel | path. This is preferable. The point that the molten resin enters the concave portion 6c of the end winding portion 6b of the coil spring 6 and the fixing is ensured is similar to the above example.
図10に、コイルスプリング6の固定方法が異なる、更に他の一例を示す。図7〜図9の一例と同様、ボールペンチップ8と接続部材との組み立て、部材の支持台への設置、コイルスプリングの配置、コイルスプリング6の後退規制を行う内方突部7dが成形された後のボールペン組み立て方法は、図3〜図6にて示した一例と同じである。尚、図10も、図2のI部拡大図に相当する図面として示してある。 FIG. 10 shows still another example in which the fixing method of the coil spring 6 is different. As in the example of FIGS. 7 to 9, an inward projection 7 d for assembling the ball-point pen tip 8 and the connection member, placing the member on the support base, arranging the coil spring, and regulating the retraction of the coil spring 6 is formed. The subsequent ballpoint pen assembling method is the same as the example shown in FIGS. FIG. 10 is also shown as a drawing corresponding to the enlarged view of the portion I in FIG.
図10に示すように、接続部材7の後端開口部7bよりホーン11を挿入し、ホーン11を下方へと移動させる事によって、ホーン11の先端面にてコイルスプリング6を圧縮し、同時にホーン11の先端面が接続部材7の内段部7cに当接させる。本例においては、ホーン11の先端部に凹み部11bを有する形状のものを採用したため、コイルスプリング6の後端がホーン11の先端部の凹み部11bの内部に入り、よってコイルスプリング6の後端が横にずれず、コイルスプリング6によるボール押圧力のばらつきを抑える上で好ましいと言える。ホーン11にて接続部材7の段部7cを押しつけながら超音波振動を付与し、段部7c近傍の樹脂を熔融させ、コイルスプリング6とホーン11との間に熔融樹脂を侵入させ、樹脂を固化させてコイルスプリング6を固定する。尚、コイルスプリング6の座巻き部6bの凹部6cに熔融樹脂が浸入して固定が確実となる点は上述の一例と同様である。 As shown in FIG. 10, the horn 11 is inserted from the rear end opening 7b of the connecting member 7, and the horn 11 is moved downward to compress the coil spring 6 at the front end surface of the horn 11, and at the same time, the horn. 11 is brought into contact with the inner step portion 7c of the connecting member 7. In this example, since the horn 11 has a shape having a recess 11b at the tip, the rear end of the coil spring 6 enters the inside of the recess 11b at the tip of the horn 11, so It can be said that the ends are not displaced laterally, which is preferable in suppressing variation in the ball pressing force by the coil spring 6. Ultrasonic vibration is applied while pressing the step portion 7c of the connecting member 7 with the horn 11, the resin in the vicinity of the step portion 7c is melted, and the molten resin enters between the coil spring 6 and the horn 11 to solidify the resin. To fix the coil spring 6. The point that the molten resin enters the recess 6c of the end turn 6b of the coil spring 6 and the fixing is ensured is the same as in the above example.
図11に、コイルスプリング6の固定方法が異なる、更に他の一例を示す。図7〜図9の一例と同様、ボールペンチップと接続部材との組み立て、部材の支持台への設置、コイルスプリングの配置、コイルスプリングの後退規制を行う内方突部が成形された後のボールペン組み立て方法は、図3〜図6にて示した一例と同じである。また、ホーンによるコイルスプリングの圧縮操作、ホーンによる樹脂の熔融は、図10〜図11にて示した一例と同じである。尚、図11も、図2のI部拡大図に相当する図面として示してある。 FIG. 11 shows still another example in which the fixing method of the coil spring 6 is different. As in the example of FIGS. 7 to 9, the ball-point pen after the inward projection for assembling the ball-point pen tip and the connecting member, placing the member on the support base, arranging the coil spring, and restricting the coil spring to retreat is formed. The assembly method is the same as the example shown in FIGS. The compression operation of the coil spring by the horn and the melting of the resin by the horn are the same as the example shown in FIGS. Note that FIG. 11 is also shown as a drawing corresponding to the enlarged view of the portion I in FIG.
図11に示すように、本例においては、ホーン11として、先端部に、突出部11aとそれを囲む凹み部11bを形成したものとし、突起部11aを先端に向かって縮径する傾斜面11cを有するものとした。そして、突起部11aの先端がコイルスプリング6の後端より内部に挿入される大きさとしたので、突起部11aの傾斜面11cがコイルスプリング6の比較的内面に当接することとなる。これによって、熔融樹脂をコイルスプリング6の後端に配置することができる。また、ホーン11の先端に形成された周状の凹み部11bにも熔融樹脂が流入するので、コイルスプリング6の後端に配置される樹脂の厚みが厚くなり、後退規制部の強度が確保されるものとなる。 As shown in FIG. 11, in this example, the horn 11 is formed with a protruding portion 11 a and a recessed portion 11 b surrounding the protruding portion 11 a at the tip, and an inclined surface 11 c that reduces the diameter of the protruding portion 11 a toward the tip. It was supposed to have. And since the front-end | tip of the projection part 11a was made into the magnitude | size inserted inside from the rear end of the coil spring 6, the inclined surface 11c of the projection part 11a will contact | abut to the comparatively inner surface of the coil spring 6. FIG. Thereby, the molten resin can be arranged at the rear end of the coil spring 6. Further, since the molten resin also flows into the circumferential recess 11b formed at the tip of the horn 11, the thickness of the resin disposed at the rear end of the coil spring 6 is increased, and the strength of the retreat restricting portion is ensured. Will be.
1 インキ
2 フォロワー
3 インキタンク
4 ボール
5 ボールホルダー
6 コイルスプリング
7 接続筒部材
8 ボールペンチップ
9 支持台
10 押圧棒
11 ホーン
DESCRIPTION OF SYMBOLS 1 Ink 2 Followers 3 Ink tank 4 Ball 5 Ball holder 6 Coil spring 7 Connection cylinder member 8 Ball-point pen tip 9 Support base 10 Press rod 11 Horn
Claims (1)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2008218875A JP5187079B2 (en) | 2008-08-27 | 2008-08-27 | Ballpoint pen manufacturing method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2008218875A JP5187079B2 (en) | 2008-08-27 | 2008-08-27 | Ballpoint pen manufacturing method |
Publications (2)
Publication Number | Publication Date |
---|---|
JP2010052240A true JP2010052240A (en) | 2010-03-11 |
JP5187079B2 JP5187079B2 (en) | 2013-04-24 |
Family
ID=42068682
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2008218875A Expired - Fee Related JP5187079B2 (en) | 2008-08-27 | 2008-08-27 | Ballpoint pen manufacturing method |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP5187079B2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2010120354A (en) * | 2008-11-21 | 2010-06-03 | Pentel Corp | Elastic biasing structure for writing implement, and method of manufacturing the same |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH09234986A (en) * | 1996-02-29 | 1997-09-09 | Pentel Kk | Manufacture of ball-point pen point set |
JP2002127670A (en) * | 2000-10-27 | 2002-05-08 | Pilot Ink Co Ltd | Ballpoint pen |
JP2003220785A (en) * | 2002-01-30 | 2003-08-05 | Mitsubishi Pencil Co Ltd | Welding method for writing instrument and writing tip |
JP2005161586A (en) * | 2003-11-28 | 2005-06-23 | Pentel Corp | Joining structure of member and coating tool usng the same |
JP2007210202A (en) * | 2006-02-09 | 2007-08-23 | Pilot Ink Co Ltd | Retractable ball-point pen |
-
2008
- 2008-08-27 JP JP2008218875A patent/JP5187079B2/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH09234986A (en) * | 1996-02-29 | 1997-09-09 | Pentel Kk | Manufacture of ball-point pen point set |
JP2002127670A (en) * | 2000-10-27 | 2002-05-08 | Pilot Ink Co Ltd | Ballpoint pen |
JP2003220785A (en) * | 2002-01-30 | 2003-08-05 | Mitsubishi Pencil Co Ltd | Welding method for writing instrument and writing tip |
JP2005161586A (en) * | 2003-11-28 | 2005-06-23 | Pentel Corp | Joining structure of member and coating tool usng the same |
JP2007210202A (en) * | 2006-02-09 | 2007-08-23 | Pilot Ink Co Ltd | Retractable ball-point pen |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2010120354A (en) * | 2008-11-21 | 2010-06-03 | Pentel Corp | Elastic biasing structure for writing implement, and method of manufacturing the same |
Also Published As
Publication number | Publication date |
---|---|
JP5187079B2 (en) | 2013-04-24 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JP4913483B2 (en) | Writing structure connection structure | |
JP2020073355A (en) | Writing instrument refill and writing instrument | |
JP4392847B2 (en) | Tip structure of eyeliner application tool | |
JP5187079B2 (en) | Ballpoint pen manufacturing method | |
JP2015042449A (en) | Mechanical pencil inner core and method for manufacturing the same | |
JP5187165B2 (en) | Ballpoint pen manufacturing method | |
JP6765347B2 (en) | Mechanical pencil unit and writing instruments using this mechanical pencil unit | |
EP1201456B1 (en) | Ball point pen | |
JP5329296B2 (en) | Ballpoint pen and ballpoint pen manufacturing method | |
JP2010125787A (en) | Ball-point pen chip | |
JP5375045B2 (en) | Blasting and urging structure of writing instrument and method for manufacturing the same | |
JP4893418B2 (en) | Ballpoint pen manufacturing method | |
JP7261034B2 (en) | Mechanical pencil unit, retractable writing instrument, and method for manufacturing mechanical pencil unit | |
JP5133552B2 (en) | Intrusive compound writing instrument | |
JP4838917B2 (en) | Ballpoint pen tip | |
JP2006170302A (en) | Spring member and method of manufacturing the same | |
JP2009008255A (en) | Fixing structure for internal and external member and method for forming fixing structure for internal and external member used therefor | |
JP4565894B2 (en) | Liquid applicator | |
JP2005225071A (en) | Ballpoint pen tip and manufacturing method of ballpoint pen tip | |
JP2005324388A (en) | Ballpoint pen tip | |
JP6322940B2 (en) | Writing instrument | |
JP2005212397A (en) | Cylindrical member for writing utensil, mold for injection molding, and method for molding the cylindrical member for writing utensil | |
JP2014172377A (en) | Lead core insertion holding structure for mechanical pencil | |
JP4878217B2 (en) | Ballpoint pen tip and ballpoint pen refill | |
JP2014151630A (en) | Liquid type writing instrument |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
A621 | Written request for application examination |
Free format text: JAPANESE INTERMEDIATE CODE: A621 Effective date: 20110624 |
|
A977 | Report on retrieval |
Free format text: JAPANESE INTERMEDIATE CODE: A971007 Effective date: 20120918 |
|
A131 | Notification of reasons for refusal |
Free format text: JAPANESE INTERMEDIATE CODE: A131 Effective date: 20121016 |
|
A521 | Request for written amendment filed |
Free format text: JAPANESE INTERMEDIATE CODE: A523 Effective date: 20121116 |
|
TRDD | Decision of grant or rejection written | ||
A01 | Written decision to grant a patent or to grant a registration (utility model) |
Free format text: JAPANESE INTERMEDIATE CODE: A01 Effective date: 20121225 |
|
A61 | First payment of annual fees (during grant procedure) |
Free format text: JAPANESE INTERMEDIATE CODE: A61 Effective date: 20130107 |
|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20160201 Year of fee payment: 3 |
|
R150 | Certificate of patent or registration of utility model |
Ref document number: 5187079 Country of ref document: JP Free format text: JAPANESE INTERMEDIATE CODE: R150 Free format text: JAPANESE INTERMEDIATE CODE: R150 |
|
LAPS | Cancellation because of no payment of annual fees |